Forest Phenology under Differing Topographic Conditions: A Case Study of Changbai Mountain in Northeast China

Jiang, Jie; Yu, Quanzhou; Mickler, Robert A.; Tang, Qingxin; Liang, Tian; Song, Kaishan; Wang, Shaoqiang

doi:10.3390/f14071466

Cited by 4 publications

(2 citation statements)

References 68 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These studies demonstrate that precipitation has less influence on phenology in northern China. In addition, the influence of topography and exposure was proven [182,186]. Also the study by Park et al [187] on phenological changes in subalpine forests on Jeju Island, South Korea, confirmed that rising temperatures affect SOS.…”

Section: Trend Changementioning

confidence: 92%

“…Studies from Asia are overrepresented in this category, and their approach is very similar. A longer timeseries of multispectral sensors were used to measure the changes caused by climate change and the influence of other variables on the start or end of the season or the length of the growing season [111,112,[181][182][183][184][185][186]. Common to all studies is that they show how changing climatic conditions affected the development of the seasons.…”

Section: Trend Changementioning

confidence: 99%

See 1 more Smart Citation

Potential of Earth Observation to Assess the Impact of Climate Change and Extreme Weather Events in Temperate Forests—A Review

Wegler,

Kuenzer

2024

Remote Sensing

View full text Add to dashboard Cite

Temperate forests are particularly exposed to climate change and the associated increase in weather extremes. Droughts, storms, late frosts, floods, heavy snowfalls, or changing climatic conditions such as rising temperatures or more erratic precipitation are having an increasing impact on forests. There is an urgent need to better assess the impacts of climate change and extreme weather events (EWEs) on temperate forests. Remote sensing can be used to map forests at multiple spatial, temporal, and spectral resolutions at low cost. Different approaches to forest change assessment offer promising methods for a broad analysis of the impacts of climate change and EWEs. In this review, we examine the potential of Earth observation for assessing the impacts of climate change and EWEs in temperate forests by reviewing 126 scientific papers published between 1 January 2014 and 31 January 2024. This study provides a comprehensive overview of the sensors utilized, the spatial and temporal resolution of the studies, their spatial distribution, and their thematic focus on the various abiotic drivers and the resulting forest responses. The analysis indicates that multispectral, non-high-resolution timeseries were employed most frequently. A predominant proportion of the studies examine the impact of droughts. In all instances of EWEs, dieback is the most prevailing response, whereas in studies on changing trends, phenology shifts account for the largest share of forest response categories. The detailed analysis of in-depth forest differentiation implies that area-wide studies have so far barely distinguished the effects of different abiotic drivers at the species level.

show abstract

Section: Trend Changementioning

confidence: 92%